Ceramic fuel cells for space vehicles 1Lugovy MI, 2Slyunyayev VM, 2Brodnikovskyi Ye.M, 2Brychevskyi M, 2Brodnikovskyi MP, 2Vasil'ev AD, 3Steinberger-Wilckens R. Ceramic fuel cells for space vehicles. Kosm. nauka tehnol. 2009 ;15(2):05-15.
Contact thermal resistance of capillary structures of heat pipes in heat-exchange systems of spacecrafts and helioenergetics 1Kostornov AG, 1Shapoval AA, 2Frolov GA, 3Shapoval IV. Contact thermal resistance of capillary structures of heat pipes in heat-exchange systems of spacecrafts and helioenergetics. Kosm. nauka tehnol. 2009 ;15(1):75-79.
Modification of Glaser project. New thermal cycle for orbital solar electric power station 1Ludanov KI. Modification of Glaser project. New thermal cycle for orbital solar electric power station. Kosm. nauka tehnol. 2009 ;15(1):62-67.
Interaction of supersonic heterogeneous streams with solid body surface 1Polezhaev Yu.V, 1Mikhatulin DS, 2Frolov GA. Interaction of supersonic heterogeneous streams with solid body surface. Kosm. nauka tehnol. 2010 ;16(6):57-63.
High-temperature heat insulation material on the basis of ceramic fibers 1Gusarova IA. High-temperature heat insulation material on the basis of ceramic fibers. Space Science and Technology. 2017 ;23(2):24-31.
The mechanism of spraying of paraffin-based fuel by using of plasma transferred arc 1Bulavin LA, 1Chernyak VYa., 1Vergun LYu., 1Zabashta Yu.F, 2Orlovskaya SG, 1Nedibalyuk OA, 1Solomenko ОV. The mechanism of spraying of paraffin-based fuel by using of plasma transferred arc. Kosm. nauka tehnol. 2017 ;23(1):30-35.
The fluid surface shape and capillary phenomena under lowered gravity or weightlessness with application to space materials science (powder metallurgy technology: impregnation, liquid-phase sintering; welding, brazing) 1Naidich Yu.V, 1Gab II, 2Evdokimov VA, 2Kurkova DI, 1Stetsyuk TV, 2Grigorenko NF, 2Chemigovtsev EP, 2Zhuravlev VS, 2Krasovsky VP. The fluid surface shape and capillary phenomena under lowered gravity or weightlessness with application to space materials science (powder metallurgy technology: impregnation, liquid-phase sintering; welding, brazing). Kosm. nauka tehnol. 2004 ;10(2-3):059-067.
«Technology» Experiment New capabilities of growing semi-conductor materials by the method of electron beam crucibleless zone melting under microgravity 1Paton ВЕ, 1Asnis Yu.A, 1Zabolotin SP, 2Baranskii PI, 2Babich VM. «Technology» Experiment New capabilities of growing semi-conductor materials by the method of electron beam crucibleless zone melting under microgravity. Kosm. nauka tehnol. 2000 ;6(4):140-141.
«Brazing» Experiment Capillary properties of metal melts, non-metal materials and processes of wetting and brazing under microgravity 1Najdich Yu.V, 2Gab II, 1Zhuravlev VS. «Brazing» Experiment Capillary properties of metal melts, non-metal materials and processes of wetting and brazing under microgravity. Kosm. nauka tehnol. 2000 ;6(4):139-140.
Electron beam zone melting of ni-base eutectic 1Barabash ОМ, 1Nemoshkalenko VV. Electron beam zone melting of ni-base eutectic. Kosm. nauka tehnol. 2000 ;6(4):138-139.